Apparatus and method for improved live monitoring and alarm handling in video surveillance systems

ABSTRACT

Systems and methods for annotating a display of a video data stream with customized information are provided. Methods include selecting a video data stream, creating a video graphic help file (VGH file) associated with the video data stream, a data capture device associated with the video data stream, a monitored area captured by the data capture device associated with the video data stream, or a salvo view, adding customized information to the VGH file, determining a need to access the VGH file, recalling the VGH file, and displaying customized information in the VGH file.

CROSS-REFERENCE TO RELATED APPLICATIONS

This application is a continuation of and claims the benefit of thefiling date of U.S. application Ser. No. 14/928,462 filed Oct. 30, 2015,which is a continuation of and claims the benefit of the filing date ofU.S. application Ser. No. 13/367,735 filed Feb. 7, 2012.

FIELD

The present invention relates generally to video management systems.More particularly, the present invention relates to systems and methodsfor annotating a display of a video data stream with customizedinformation about an associated data collection device or an areamonitored by an associated data collection device.

BACKGROUND

Video management systems can include a plurality of devices andsub-systems, such as, for example, surveillance cameras, video recorders(DVR, NVR, etc), encoders, switches, input devices, output devices,workstations, controllers, and viewers. Some video management systemscan run twenty-four hours a day, seven days a week, and three hundredsixty-five days a year. These types of video management systems thatmonitor large surveillance sites can have hundreds of operators workingshifts around the clock to continuously and constantly monitor videodata streams collected from surveillance cameras in the system.

Surveillance cameras or other data collection devices that are part ofvideo management systems can be configured with a basic description andname of the device. However, often such information is not sufficient toconvey the need and importance of the area monitored by the device.

Video data streams from data collection devices can be displayed to auser at a workstation, for example, via closed circuit television(CCTV). The user at the workstation should preferably have some highlevel knowledge about the devices in the video management system, suchas the location of the device and the reason for monitoring a particulararea. When a user possesses such information, he can better focus hisefforts to concentrate on data streams from certain data collectiondevices or areas and give less importance to data streams from otherdata collection devices or areas. However, when a user does not possesssuch information, there is a higher likelihood that he will miss oroverlook certain incidents in a video data stream.

Known video management systems do not provide the desired high levelknowledge to a user at a workstation and do not provide methods forproviding or adding the desired high level knowledge. Instead, in knownsystems and methods, users must remember information specific to certaindata collection devices and monitored areas. This can be a tedious anddifficult task, especially in systems that include a large number ofdata collection devices and that monitor a large number of areas.

There is, thus, a continuing, ongoing need for improved systems andmethods.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is a flow diagram of a method of creating a VGH file inaccordance with embodiments disclosed herein;

FIG. 2 is a flow diagram of a method of accessing a VGH file inaccordance with embodiments disclosed herein;

FIG. 3 is a block diagram of a system for carrying out the methods ofFIG. 1 and FIG. 2 and others disclosed herein;

FIG. 4 is a view of an interactive window displayed on a viewing screenof a graphical user interface for creating a VGH file in accordance withembodiments disclosed herein;

FIG. 5 is a view of an interactive window displayed on a viewing screenof a graphical user interface for creating a VGH file in accordance withembodiments disclosed herein;

FIG. 6 is a view of an interactive window displayed on a viewing screenof a graphical user interface for creating a VGH file in accordance withembodiments disclosed herein;

FIG. 7 is a view of an interactive window displayed on a viewing screenof a graphical user interface for creating a VGH file in accordance withembodiments disclosed herein;

FIG. 8 is a view of an interactive window displayed on a viewing screenof a graphical user interface for creating a VGH file in accordance withembodiments disclosed herein;

FIG. 9A is a view of an interactive window displayed on a viewing screenof a graphical user interface for accessing a VGH file in accordancewith embodiments disclosed herein;

FIG. 9B is a view of an interactive window displayed on a viewing screenof a graphical user interface for accessing a VGH file in accordancewith embodiments disclosed herein;

FIG. 10A is a view of an interactive window displayed on a viewingscreen of a graphical user interface for accessing a VGH file inaccordance with embodiments disclosed herein; and

FIG. 10B is a view of an interactive window displayed on a viewingscreen of a graphical user interface for accessing a VGH file inaccordance with embodiments disclosed herein.

DETAILED DESCRIPTION

While this invention is susceptible of an embodiment in many differentforms, there are shown in the drawings and will be described herein indetail specific embodiments thereof with the understanding that thepresent disclosure is to be considered as an exemplification of theprinciples of the invention. It is not intended to limit the inventionto the specific illustrated embodiments.

Embodiments disclosed herein include systems and methods for annotatinga display of a video data stream with customized information about anassociated data collection device or an area monitored by an associateddata collection device. Preferably, such systems and methods can displaythe customized information on a portion of the display of the video datastream.

It is to be understood that systems and methods described herein can beexecuted in connection with real-time streaming video data streams,recorded video data streams, and/or exported video clips. However, thedescribed systems and methods are not so limited.

In accordance with disclosed embodiments, a user or operator can addcustomized information about an associated monitored area or anassociated data collection device or group of associated data collectiondevices, for example, a group of cameras associated with a salvo view ona workstation. This customized information can be stored in a fileseparate from a file containing a video data stream. For example, insome embodiments, the customized information can be stored in a visualgraphic help file (VGH file) or a database of VGH files. Thus, the VGHfile or any information therein does not alter or disturb files withvideo data streams. That is, the video data streams are preserved.

A VGH file can be recallable, as needed. For example, in someembodiments, customized information can be accessed in real time or usedfor post-event analysis and/or for forensic operations. In someembodiments, the customized information can be updated, as needed, forimproved surveillance monitoring in the future. For example, users oroperators with experience monitoring a particular area or the like canupdate a particular VGH file with additional customized informationknown to be useful and share that additional information, via theupdated VGH file, with other users or operators. For example, theadditional information could include time periods during which alarmsare likely to occur in a monitored area or identifications of high riskmonitored areas.

In some embodiments, a VGH file or a database of VGH files can becross-referenced to a file or files of video data streams captured bydata collection devices. Thus, when systems and methods disclosed hereinrecall a file with a video data stream and then display that video datastream, the correct VGH file can also be recalled and displayed. In someembodiments, a plurality of workstations can display the same VGH fileat the same time.

It is to be understood that the customized information in a VGH file canbe stored in and/or displayed on a plurality of different devices,including, but not limited to, a workstation, a data capture device, apersonal computer, a thin client, a thick client, a personal digitalassistant, a smart phone, a handheld device, or any other device thatincludes web-based hardware. For example, a VGH file can be loaded intoa memory of a data capture device. Then, customized information in theVGH file can be viewed on a display of the data capture device. Thus,systems and methods can avoid a dependency on a workstation or videomanagement system to access the VGH file. Further, the ability to showand hide the information in the VGH file also need not be dependent on aworkstation or video management system.

A VGH file can include a plurality of different customizable informationregarding a data collection device or an area monitored by a datacollection device. For example, a VGH file can include graphicalinformation, a recallable file, and/or text information. Graphicalinformation can include, for example, geometrical shapes, lines, arrows,markings, curves, free hand drawings, or the like. Recallable files caninclude, for example, text or image files, such as Notepad, MicrosoftWord, JPEG, BMP, or PDF files. In some embodiments, the files orinformation included in a VGH file can include information showing aspecific action to be taken when a particular data collection device isin alarm or when a user indicates a need for more information.

In some embodiments, a VGH file can include instructions and/or stepsfor configuring a device in a video management system or any otherintegrated or head end system or device using video data streams aswould be known by those of skill in the art, including, but not limitedto, a fire system, a life safety system, a gas detection system, alocation management system, a building management system, a processcontrol system, an access control system, an intrusion detection system,and the like. In these embodiments, the VGH file need not be associatedwith a particular video data stream or data collection device.

According to systems and methods disclosed herein, when a video datastream is loaded, for example, for viewing at a workstation, anassociated VGH file can also be loaded for viewing at the workstation.The information contained in the VGH file can be displayed on theworkstation in a transparent window on at least a portion of a userinterface displaying the loaded video data stream. In some embodiments,the associated VGH file can be loaded for viewing only when a userindicates a need for more information, for example, a need forinformation contained in the VGH file. In some embodiments, theassociated VGH file can be loaded for viewing only when an associateddata collection device is in alarm, for example, the associated VGH filecan be automatically loaded for viewing when an associated datacollection device is in alarm.

According to some embodiments, a workstation can display a video lossmessage when a video loss alarm occurs, and an associated VGH file canbe loaded for viewing on the workstation, as needed. For example, when aproblem occurs, such as a faulty power supply or faulty data collectiondevice, the data collection device may not be able to send a video datastream to a workstation. The workstation and/or system in which theworkstation is employed can sense this condition as a video loss alarm.In disclosed embodiments, the workstation can continue displaying thelast received frame of the video data stream with a video loss messageoverlaid thereon to alert an operator of the current condition. Then,the operator can provide input to view an associated VGH file, forexample, on an as needed basis. In these embodiments, the displayedinformation in the VGH file may assist the operator in detecting thesource of the problem that caused the video loss alarm.

In some embodiments, the customized information in a VGH file can besuppressed or hidden on a display when a user indicates that there is nolonger a need for the information in the VGH file or that there is noneed for the information in the VGH file at the current time. In someembodiments, the customized information in a VGH file can be suppressedor hidden on a display when an associated surveillance camera is nolonger in alarm or there is no need for the information in the VHG fileat the current time. It is to be understood that the customizedinformation in the VGH file can also be suppressed or hidden whenviewing the information on a data capture device or any other devicethat comes within the sprit and scope of embodiments disclosed herein.

FIG. 1 is a flow diagram of a method 100 of creating a VGH file inaccordance with embodiments disclosed herein. The method 100 can includeadding customized information to a VGH file, such that the customizedinformation relates to a surveillance camera or other data collectiondevice, to a monitored area, or to a view provided by a user interfaceat a workstation.

As seen in FIG. 1, the method 100 can include a user or operatorselecting a camera or group of cameras as in 110. In some embodiments,the selected camera or group of cameras can be the camera(s) or datacollection device(s) with which the user wants to associate customizedinformation.

Then, the method 100 can add applicable customized information for theselected camera(s) or data collection device(s) as in 120. In someembodiments, the customized information can be associated with aparticular field of view for the selected camera(s) or data collectiondevice(s).

As seen in FIG. 1, the method 100 can save the added customizedinformation as or in a VGH file as in 130 and then save and test theconfiguration of the VGH file as in 140. It is to be understood that aVGH file can be saved as private or public, that is, shared. That is,when a user creates a VGH file, he can indicate if the file is to bemade available to only him when monitoring a workstation or if the fileis to be made available to other operators monitoring workstations.

In some embodiments, users or operators can log problems faced whenmonitoring video data streams. System administrators can review loggedproblems and, based on the frequency of problems, can create one or moreVGH files to aid operators in overcoming known problems.

FIG. 2 is a flow diagram of a method 200 of accessing a VGH file inaccordance with embodiments disclosed herein. The method 200 can includeviewing customized information stored in a VGH file while monitoringvideo data streams from data collection devices and/or while a datacollection device is in alarm.

As seen in FIG. 2, the method 200 can include a user or operatormonitoring video data streams captured by a plurality of surveillancecameras or data collection devices as in 210. In some embodiments, thevideo data streams can be displayed on a user interface of aworkstation.

Then, the method 200 can determine if there is a need to accesscustomized information for camera(s) or data collection device(s)associated with any of the displayed video data streams as in 220. Forexample, in some embodiments, the method 200 can determine that there isa need to access customized information when suspicious activity isdetected in a video data stream and/or a monitored area captured by asurveillance camera, when a data collection device is in alarm or nearanother device in alarm, and/or when an operator provides inputindicating that he needs information to focus his efforts. That is, theoperator needs information to determine on which data streams, cameras,or areas to concentrate and/or what data streams, cameras, or areas togive less importance.

When the method 200 determines that there is a need to access customizedinformation as in 220, then the method 200 can recall a VGH file withsaved customized information as in 230. Which VGH file to recall can bedetermined based on a cross-reference to a data collection device or amonitored area. In some embodiments, a VGH file can be automaticallyrecalled when a data collection device is in alarm. In some embodiments,a VGH file can be manually recalled based on user input indicating aneed for a VGH file with customized information.

The methods shown in FIG. 1, FIG. 2, and others disclosed herein can beexecuted in connection with all types of video management systems andalarm monitoring systems. Specifically, the methods shown in FIG. 1,FIG. 2, and others disclosed herein can be implemented with a pluralityof data collection devices 360, for example, video cameras, incommunication with the system 300 shown in FIG. 3. For example, thesystem 300 can include a workstation connected to the plurality of datacollected devices 360 via CCTV.

As seen in FIG. 3, the system 300 can include control circuitry 310, oneor more programmable processors 320, and executable control software 330as would be understood by those of skill in the art. The executablecontrol software can be stored on a transitory or non-transitory localcomputer readable medium, including, but not limited to, local computermemory, RAM, optical storage media, magnetic storage media, flashmemory, etc.

An associated user interface device 340 can be in communication with thecontrol circuitry 310, and a viewing screen 350 of the user interfacedevice 340, as would be known by those of skill in the art, can displayinteractive and viewing windows. In some embodiments, the user interfacedevice 340 can be a multi-dimensional graphical user interface. In someembodiments, the user interface device 340 can include one or more inputmechanisms 370, for example, a keypad or a mouse, that can receive userinput.

Video data streams from the plurality of video cameras 360 can bereviewed in real time and/or be stored by a database 380 for laterreview. Then, an operator can view the video data streams via theviewing screen 350 of the user interface device 340 and enter input viathe input mechanisms 370 for creating and/or accessing a VGH file.

The interactive and viewing windows shown and described herein areexemplary only. Those of skill in the art will understand that thefeatures of the windows shown and described herein may be displayed byadditional or alternate windows. Additionally, the windows shown anddescribed herein can be displayed on any type of user device, forexample, personal digital assistants, smart phones, and/or handhelddevices.

FIGS. 4-8 are views of interactive windows displayed on viewing screensof a graphical user interface for creating a VGH file in accordance withembodiments disclosed herein. For example, as seen in FIG. 4, the window400 can include a plurality of sub-windows 410 a, 410 b, 410 c, 410 d,410 e, 410 f for displaying video data streams captured by respectiveones of a plurality of data collection devices, for example,surveillance cameras. At least one of the sub-windows, for example, 410a, can be selected for associating customized information therewith.

As seen in FIG. 5, a VGH file can be created, and customized informationregarding the monitored area displayed by the selected video data streamcan be included in the VGH file.

The customized information can include text and graphics, includingarrows and circles annotating the video data stream displayed on thewindow 500. In some embodiments a VGH file can include multipleinformation layers, for example, one layer with text, one layer withgraphics, and one layer with text and graphics. In some embodiments,multiple information layers of VGH files, for example, one layer withtext, one layer with graphics, and one layer with text and graphics canbe associated with a video data stream or a salvo view. It is to beunderstood that multiple layers of VGH files can include multiple VGHfiles sandwiched on top of one another.

The customized information shown in FIG. 5 can include, for example, (1)a guidelines document and/or floor plan to a nearest fire exit or fireextinguishers; (2) a defined visitors' area; (3) a defined area foremployees only; (4) a path to a fire exit; and/or (5) contactinformation for a receptionist or other personnel in the monitored area.

For example, the guidelines document and/or floor plan to a nearest fireexit or fire extinguishers can be shown on views of the monitored areathat include a fire panel. In some embodiments, a user can provide userinput to select the fire panel in order to view the guidelines documentand/or floor plan. In some embodiments, the guidelines document and/orfloor plan can provide action steps to take in the event of an alarm,for example, a fire alarm.

In some embodiments, the text and/or graphics of all notices or signs ina monitored area can be made available as customized information in anassociated VGH file. Thus, a user can view information on the notice orsign even if that information would otherwise not be viewable.

The defined visitors' area can be based on past events or incidents inthe monitored area. For example, the defined visitors' area can indicatean area to which visitors to the monitored area are restricted. As seenin FIG. 5, the defined visitors' area can be shown with a circle aroundthe area and with relevant text explaining the area.

The defined area for employees can indicate an area and/or pathway inwhich only employees, but not visitors, can enter. Showing thiscustomized information on a display with a video data stream can aid anoperator or user in preventing certain incidents from occurring.

The path to a fire exit can show a direction occupants of the monitoredarea can take to reach a fire exit, for example, during a fire alarm.

Finally, the contact information for a receptionist or other personnelin the monitored area can indicate methods that a user or operator canemploy to contact the receptionist or other personnel when thereceptionist is not in his designated area and the operator needs toreach the receptionist. For example, the telephone number for thereceptionist can be displayed.

It is to be understood that the customized information shown in FIG. 5and described above is exemplary only. However, embodiments describedherein are not so limited. Rather, the embodiments disclosed anddescribed are applicable to other kinds of events and actions that canoccur in a monitored area.

As seen in FIG. 6, the window 600 can display a plurality of video datastreams from a set of cameras that monitor a common area or location,for example, gaming tables in a casino. The view of the plurality ofvideo data streams can be saved with a salvo name so that the view ofthe plurality of video data streams can be recalled at a later timesimply by selecting the saved salvo name.

In some embodiments, a user can provide user input to create a VGH filefor adding customized details about a monitored area, a surveillancecamera, a saved salvo, or the like. For example, the user can click orotherwise select an icon displayed on the window 600 to start thecreation of a VGH file. In some embodiments, once the icon is selected,systems and methods can register, track, and/or save all actionsperformed by the user and/or all input provided by the user.

As seen in FIG. 7, an operator can added customized information to a VGHfile, and the customized information can be specific to a particularmonitored area. For example, the customized information can explain theneed or goal for monitoring a particular area with the associatedsurveillance camera and/or on what an operator should concentrate andwhat an operator can ignore.

In some embodiments, customized information added to a VGH file caninclude (1) text indicating an operator should concentrate more on areasmarked with graphics, for example, circles; (2) text explaining the viewcaptured by the associated surveillance camera, for example, a sideview; (3) text explaining the monitored area and why that area ismonitored, including a sub-area marked by graphics, for example, arectangle; (4) text explaining what areas are captured by a surveillancecamera; (5) text and arrows indicating on what area an operator shouldconcentrate; (6) text explaining desired settings of an associatedsurveillance camera, for example, a PTZ setting; and/or (7) text andgraphics, for example, stars, indicating on what area an operator shouldconcentrate.

With the assistance of customized information in a VGH file, an operatorcan efficiently and effectively monitor video data streams from aplurality of surveillance cameras in real time. For example, the VGHfile can be accessed and information therein can be displayed in realtime.

As seen in FIG. 8, graphics, for example, arrows, can be included in aVGH file to show the direction of a nearby surveillance camera.Furthermore, graphics, for example, arrows, can be included to track orfollow a person as he travels between areas monitored by differentsurveillance cameras, for example, when that person is engaging insuspicious activity.

FIGS. 9A, 9B, 10A, and 10B are views of interactive windows displayed onviewing screens of a graphical user interface for accessing a VGH filein accordance with embodiments disclosed herein. For example, as seen inFIGS. 9A and 9B, a video data stream can be displayed in a window 900 ain normal operation. When a user provides input to show a VGH fileassociated with the video data stream, the surveillance camera thatcaptured the video data stream, and/or the monitored area shown in thevideo data stream, the associated VGH file can be loaded and displayed.For example, the window 900 b can display the video data stream and thecustomized information in the loaded VGH file.

Similarly, as seen in FIGS. 10A and 10B, video data streams from aplurality of surveillance cameras, that is, a salvo view, can bedisplayed in a window 1000 a in normal operation. When a user providesinput to show a VGH file associated with the video data streams, thesurveillance cameras that captured the video data streams, the monitoredarea shown in the video data streams, and/or the salvo view, theassociated VGH file can be loaded and displayed. For example, the window1000 b can display the video data streams and the customized informationin the loaded VGH file.

It is to be understood that a plurality of VGH files can be associatedwith a single video data stream, surveillance camera, monitored area, orsalvo view. Thus, systems and methods in accordance with disclosedembodiments can create and associate multiple VGH files with a singlevideo data stream, surveillance camera, monitored area, or salvo view.Further, systems and methods in accordance with disclosed embodimentscan access and display customized information in multiple VGH filessubstantially simultaneously.

Although a few embodiments have been described in detail above, othermodifications are possible. For example, the logic flows depicted in thefigures do not require the particular order shown, or sequential order,to achieve desirable results. Other steps may be provided, or steps maybe eliminated, from the described flows, and other components may beadded to, or removed from, the described systems. Other embodiments maybe within the scope of the following claims.

From the foregoing, it will be observed that numerous variations andmodifications may be effected without departing from the spirit andscope of the invention. It is to be understood that no limitation withrespect to the specific system or method illustrated herein is intendedor should be inferred. It is, of course, intended to cover by theappended claims all such modifications as fall within the spirit andscope of the claims.

What is claimed is:
 1. A method comprising: creating a first file;associating the first file with a video data stream in a second file, adata capture device associated with the video data stream, and amonitored area captured by the data capture device associated with thevideo data stream; receiving first customized information from a userwith experience in monitoring the monitored area captured by the datacapture device associated with the video data stream; storing the firstcustomized information in the first file; responsive to the data capturedevice associated with the video data stream being in an alarm state,recalling the first file and the video data stream; and responsive torecalling the first file and the video data stream, displaying the firstcustomized information in the first file superimposed over the videodata stream.
 2. The method of claim 1 further comprising storing thefirst file separately from the second file.
 3. The method of claim 1further comprising cross-referencing the first file with the secondfile.
 4. The method of claim 1 further comprising saving the first fileas one of private or public.
 5. The method of claim 1 further comprisingupdating the first file with additional customized information.
 6. Themethod of claim 1 further comprising receiving user input to select thevideo data stream from a display on at least one of a user interfacedevice, the data capture device, a personal computer, a thin client, athick client, a personal digital assistant, a smart phone, and ahandheld device.
 7. The method of claim 1 further comprising loading thefirst file into a memory of the data capture device.
 8. A methodcomprising: determining a need to access a first file associated with avideo data stream in a second file, a data capture device associatedwith the video data stream, and a monitored area captured by the datacapture device associated with the video data stream, the first filecontaining customized information received from a user with experiencein monitoring the monitored area captured by the data capture deviceassociated with the video data stream; responsive to the data capturedevice associated with the video data stream being in an alarm state,recalling the first file and the video data stream; and responsive torecalling the first file and the video data stream, displaying thecustomized information in the first file superimposed over the videodata stream, wherein determining the need to access the first file isbased on the data capture device associated with the video data streambeing in the alarm state.
 9. The method of claim 8 further comprisingdisplaying the customized information in the first file on at least oneof a user interface device, the data capture device, a personalcomputer, a thin client, a thick client, a personal digital assistant, asmart phone, and a handheld device.
 10. The method of claim 8 whereinrecalling the first file and displaying the customized information inthe first file occurs in one of real time or post-event analysis. 11.The method of claim 8 further comprising storing the first fileseparately from the second file.
 12. The method of claim 8 furthercomprising suppressing the customized information in the first file. 13.The method of claim 8 wherein recalling the first file includescross-referencing the second file with the first file.
 14. A systemcomprising: a programmable processor; a user interface device; andexecutable control software stored on a non-transitory computer readablemedium for: creating a first file; associating the first file with avideo data stream in a second file, a data capture device associatedwith the video data stream, and a monitored area captured by the datacapture device associated with the video data stream; storing customizedinformation in the first file, the customized information received froma user with experience in monitoring the monitored area captured by thedata capture device associated with the video data stream; responsive tothe data capture device associated with the video data stream being inan alarm mode, determining a need to access the first file; responsiveto the determining, recalling the first file and the video data stream;and responsive to the recalling, displaying the customized informationin the first file superimposed over the video data stream.